KR20140002523U - vacuum circuit breaker with a cooling duct - Google Patents

Abstract

The present invention can prevent the heat transfer between the heat sinks located at the upper and lower portions of the vacuum interrupter through the cooling duct, thereby preventing the cooling heat of the upper heat sink from deteriorating due to the heat from the lower heat sink To a vacuum circuit breaker having a cooling duct.
In the vacuum circuit breaker having the cooling duct according to the present invention,
A frame body having a vacuum interrupter mounted therein;
An upper heat sink provided above the vacuum interrupter of the frame body;
A lower heat sink provided under the vacuum interrupter of the frame body;
And a front cover coupled to the front of the frame body to block the opening of the inside of the frame body,
And a cooling duct for preventing the heat from the lower heat sink from proceeding to the upper heat sink is provided at the middle portion of the inner surface of the frame body.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a vacuum circuit breaker having a cooling duct,

The present invention relates to a vacuum interrupter, and more particularly, to a vacuum interrupter capable of interrupting heat transmission between heat sinks located at the upper and lower portions of a vacuum interrupter through a cooling duct, thereby preventing heat from the lower heat sink, To a vacuum circuit breaker having a cooling duct for preventing the cooling efficiency of the heat sink from being lowered.

A vacuum circuit breaker is used as a means for blocking the converter.

At this time, since the vacuum interrupter is interrupted by a vacuum interrupter in a high vacuum state, the insulation breakdown voltage can be increased as compared with the case of using an insulating medium such as a gas.

Such a vacuum circuit breaker not only enhances the dielectric strength, but also can be miniaturized and lightened, has a small noise generated during operation, and has no risk of fire.

In the vacuum interrupter, the vacuum interrupter is coupled to the frame body fixed to the housing, and the front cover is coupled to the front of the frame body.

In the upper and lower portions of the vacuum interrupter, an upper heat sink and a lower heat sink are provided, so that the high heat generated when the vacuum interrupter operates is cooled by heat exchange in the upper and lower heat sinks.

However, as shown in FIG. 3, in the vacuum circuit breaker A ', the inside of the frame body 10' has only one space, and the upper heat sink 20 'and the lower heat sink 20' The heat generated when heat is exchanged by the lower heat sink 30 'flows to the upper heat sink 20' due to the convection phenomenon, so that the cooling efficiency of the upper heat sink 20 'is lowered There was a problem.

For this reason, in the related art, heat transfer between the vacuum interrupter lower heat sink and the upper heat sink is cut off so that the heat from the lower heat sink can be prevented from degrading the cooling efficiency of the upper heat sink due to the heat sink However, the results have not been satisfactory until now.

The present invention has been made in view of the above circumstances and it is an object of the present invention to provide a vacuum interrupter in which the heat generated from the lower heat sink located under the vacuum interrupter is transmitted to the upper heat sink located above the vacuum interrupter, And to provide a vacuum circuit breaker having a cooling duct that can solve the problem that has been caused by a problem.

According to an aspect of the present invention, there is provided a vacuum circuit breaker including a cooling duct,

A frame body having a vacuum interrupter mounted therein;

An upper heat sink provided above the vacuum interrupter of the frame body;

A lower heat sink provided under the vacuum interrupter of the frame body;

And a front cover coupled to the front of the frame body to block the opening of the inside of the frame body,

And a cooling duct for preventing the heat from the lower heat sink from proceeding to the upper heat sink is provided at the middle portion of the inner surface of the frame body.

Here, a vent hole passing through the frame body is formed in front of the upper part of the cooling duct.

And the cooling duct is directed downward, and the opening width gradually increases.

The vacuum circuit breaker having the cooling duct according to the present invention is characterized in that a cooling duct is provided between the upper heat sink and the lower heat sink so that the heat from the lower heat sink flows into the cooling duct in the course of the upward movement, Since the heat from the lower heat sink sinks to the upper heat sink, the cooling efficiency can be prevented from being lowered.

1 is a partial cross-sectional view for explaining a structure of a vacuum circuit breaker having a cooling duct according to the present invention
Fig. 2 is an exemplary view for explaining the interruption of heat transfer from the lower heat sink to the upper heat sink through the cooling duct in the vacuum circuit breaker having the cooling duct according to the present invention
3 is a partial cross-sectional view showing the structure of a conventional vacuum circuit breaker

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1, a vacuum circuit breaker A having a cooling duct according to the present invention includes a frame body 10, an upper heat sink 20, a lower heat sink 30, a front cover 40, And a cooling duct (50).

The frame body 10 is equipped with a vacuum interrupter 11 therein.

The vacuum interrupter 11 may be of any type as long as it can be applied to a vacuum interrupter, so that detailed description of the structure and operation of the vacuum interrupter 11 will be omitted.

Needless to say, the frame body 10 is provided with an insert insertion hole 12.

The frame body 10 is provided with the insert insert hole 12 so that the insert 61 of the housing 60 can be inserted through the insert insert hole 12 so that the frame body 10 is fixed to the housing 60 .

The upper heat sink 20 is provided on the upper portion of the vacuum interrupter 11 of the frame body 10.

The upper heat sink 20 is provided on the upper portion of the vacuum interrupter 11 of the frame body 10 so that heat generated from the vacuum interrupter 11 can be cooled by heat exchange in the upper heat sink 20. [

It is needless to say that the upper heat sink 20 may be of any conventional type so long as it can cool the heat from the vacuum interrupter 11. [

The lower heald synch 30 is provided under the vacuum interrupter 11 of the frame body 10.

The lower heat sink 30 is provided under the vacuum interrupter 11 of the frame body 10 so that heat generated from the vacuum interrupter 11 can be cooled by heat exchange in the lower heat sink 30. [

It is needless to say that such a lower heat sink 30 may be of any conventional type so long as it can cool the heat from the vacuum interrupter 11. [

The front cover 40 is coupled to the front of the frame body 10 to block the opening of the frame body 10.

Needless to say, the front cover 40 is provided with an insert through-hole 41.

The front cover 40 is provided with an insert through hole 41 so that the insert 61 of the housing 60 is inserted into the insert insert hole 12 of the frame body 10 through the insert through hole 41 of the front cover 40 As shown in Fig.

The cooling duct 50 is located at an intermediate portion of the inner surface of the frame body 10 and blocks the heat from the lower heat sink 30 from proceeding to the upper heat sink 20. [

It is preferable that a ventilation hole 51 penetrating the frame body 10 is formed in front of the inner upper portion of the cooling duct 50.

The air duct 51 is formed in the upper part of the inside of the cooling duct 50 so as to penetrate through the frame body 10 so that the high temperature air directed toward the upper part of the cooling duct 50 flows through the frame body 10 So that it is possible to prevent the high temperature air introduced into the cooling duct 50 from being reintroduced into the frame body 10.

On the other hand, it is preferable that the cooling duct 50 is directed downward and the opening width gradually increases.

Since the lower end of the cooling duct 50 is covered with a portion corresponding to the lower heat sink 30, the heat generated from the lower heat sink 30 advances upwardly It is possible to flow into the cooling duct 50 in the process.

The heat transmission from the lower heat sink 30 to the upper heat sink 20 through the cooling duct 50 in the vacuum circuit breaker A having the cooling duct according to the present invention will be described in detail as follows.

In the present invention, an upper heat sink 20 and a lower heat sink 30 are provided on upper and lower sides of a vacuum interrupter 11 mounted on the frame body 10.

Accordingly, the heat from the vacuum interrupter 11 can be cooled through the heat exchange in the upper and lower heat sinks 20, 30. [

At this time, the heat generated from the lower heat sink 30 may reach the upper heat sink 20 by the convection phenomenon.

However, in the present invention, a cooling duct 50 is provided between the lower portion of the inner surface of the frame body 10, that is, between the lower heat sink 30 and the upper heat sink 20.

2, the lower end of the cooling duct 50 is covered with a portion corresponding to the lower heat sink 30. Accordingly, the lower end of the cooling duct 50 is extended from the lower heat sink 30 as shown in FIG. The generated heat flows into the cooling duct 50 in the course of the upward movement, so that the heat from the lower heat sink 30 can be prevented from being applied to the upper heat sink 20. [

Therefore, the heat from the lower heat sink 30 is transmitted to the upper heat sink 20 through the cooling duct 50, and the heat exchange efficiency of the upper heat sink 20 is prevented from being lowered.

The upper portion of the cooling duct 50 is provided with a ventilation hole 51 penetrating the frame body 10. The high temperature air introduced into the cooling duct 50 passes through the ventilation hole 51, The high temperature air introduced into the cooling duct 50 can be prevented from flowing into the frame body 10 and prevented from being applied to the lower heat sink 30 or the upper heat sink 20. [ do.

Therefore, it is possible to prevent the high-temperature air introduced into the cooling duct 50 from flowing back into the frame body 10 and lowering the heat exchange efficiency of the upper and lower heat sinks 20 and 30.

As described above, the vacuum circuit breaker A having the cooling duct according to the present invention is provided with the cooling duct 50 between the upper heat sink 30 and the lower heat sink 20, and the lower heat sink 30 The heat from the lower heat sink 30 is discharged to the outside through the vent hole 51 provided in the upper portion of the cooling duct 50 after the heat from the lower heat sink 30 flows into the cooling duct 50, It is possible to prevent the lowering of the cooling efficiency due to the submersion in the upper heat sink 20. [

As described above, the present invention is not limited to the above-described embodiments, and can be modified without departing from the gist of the present invention as claimed in the claims.

10, 10 ': frame body 11, 11': vacuum interrupter
12: insert insert hole 20, 20 ': upper heat sink
30, 30 ': lower heat sink 40: front cover
41: insert through hole 50: cooling duct
51: ventilation hole 60: housing
61: Insert A, A ': Vacuum circuit breaker

Claims (3)

A frame body having a vacuum interrupter mounted therein;
An upper heat sink provided above the vacuum interrupter of the frame body;
A lower heat sink provided under the vacuum interrupter of the frame body;
And a front cover coupled to the front of the frame body to block the opening of the inside of the frame body,
And a cooling duct for preventing heat from the lower heat sink from proceeding to the upper heat sink is provided in the middle of the inner surface of the frame body. The method according to claim 1,
And a ventilation hole passing through the frame body is formed in front of the upper portion of the cooling duct. 3. The method of claim 2,
Wherein the cooling duct is directed downward and the opening width gradually increases.

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